The Peking University RRAM Model is a SPICE-compatible compact model which is designed for simulation of metal-oxide based RRAM devices. It captures typical DC and AC electrical behaviors of the RRAM devices with physics-based model descriptions.

The S2DSb compact model is based on MVS model and captures the quasi-ballistic transport in two-dimensional field effect transistors (2D FETs). It also includes a detailed device self-heating model and temperature effects for sub-10 nm 2D FETs.

In this project, we present SWCNT and MWCNT interconnect compact models. These models consider the impact of CNT defects, the chirality and contact resistance between CNT-electrode (Pd) on CNT interconnect performances and power consumption. Variabilities

This STT PMA MTJ model integrates the physical models of static, dynamic behaviors and reliability issues, which can be used to perform more accurate and complex reliability analysis of complex hybrid circuits before fabrication.

The NC-FET compact model is a semi-physical verilog-A model of the negative capacitance transistor. We developed this self-consistent model with BSIM4/MVS and Landau theory. This model is useful to design NC-FET for high speed and low power...

This CNT Interconnect Compact Model includes a solid physics understanding and electrical modeling for pristine and doped SWCNT as Interconnect applications. SWCNT resistance and capacitance are modeled in Verilog-A.

NNCI Modeling/Simulation Tools List provides a collective inventory of modeling and simulation resources and capabilities across NNCI sites and includes helpful information such as a point of contact for each tool, any access restrictions, and academic citations.

JFETIDG is a compact model for independent dual-gate JFETs. It is also applicable to: resistors with metal shields; the drift region of LDMOS transistors; the collector resistance of vertical bipolar transistors; and junctionless MOS transistors.

Purdue Solar Cell Model (PSM), previously known as the TAG (technology agnostic) model, is a suite of compact models developed for solar cells of c-Si, a-Si, perovskites, CIGS, CdTe, and HIT. This package is for perovskite and a-Si solar cells.

Purdue Solar Cell Model (PSM), previously known as the TAG (technology agnostic) model, is a suite of compact models developed for solar cells of c-Si, a-Si, perovskites, CIGS, CdTe, and HIT. This package is for perovskite and a-Si solar cells.

Purdue Solar Cell Model (PSM), previously known as the TAG (technology agnostic) model, is a suite of compact models developed for solar cells of c-Si, a-Si, perovskites, CIGS, CdTe, and HIT. This package is for c-Si solar cells.

Purdue Solar Cell Model (PSM), previously known as the TAG (technology agnostic) model, is a suite of compact models developed for solar cells of c-Si, a-Si, perovskites, CIGS, CdTe, and HIT. This package is for CIGS/CdTe.

We present a compact model for tunnel FET that for the first time fits experimental transfer and output characteristics including the impact of non-idealities such as trap assisted tunneling and intrinsic band steepness.